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- Lean.instToStringNamePart = { toString := fun (x : Lean.NamePart) => match x with | Lean.NamePart.str s => s | Lean.NamePart.num n => toString n }
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- One or more equations did not get rendered due to their size.
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- One or more equations did not get rendered due to their size.
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- t.insert n b = Lean.PrefixTree.insert t (Lean.toKey n) b
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- Lean.NameTrie.empty = Lean.PrefixTree.empty
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Equations
- Lean.instInhabitedNameTrie = { default := Lean.NameTrie.empty }
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- Lean.instEmptyCollectionNameTrie = { emptyCollection := Lean.NameTrie.empty }
Equations
- t.find? k = Lean.PrefixTree.find? t (Lean.toKey k)
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@[inline]
def
Lean.NameTrie.foldMatchingM
{m : Type u_1 → Type u_2}
{β : Type u_3}
{σ : Type u_1}
[Monad m]
(t : Lean.NameTrie β)
(k : Lake.Name)
(init : σ)
(f : β → σ → m σ)
:
m σ
Equations
- t.foldMatchingM k init f = Lean.PrefixTree.foldMatchingM t (Lean.toKey k) init f
Instances For
@[inline]
def
Lean.NameTrie.foldM
{m : Type u_1 → Type u_2}
{β : Type u_3}
{σ : Type u_1}
[Monad m]
(t : Lean.NameTrie β)
(init : σ)
(f : β → σ → m σ)
:
m σ
Equations
- t.foldM init f = t.foldMatchingM Lean.Name.anonymous init f
Instances For
@[inline]
def
Lean.NameTrie.forMatchingM
{m : Type → Type u_1}
{β : Type u_2}
[Monad m]
(t : Lean.NameTrie β)
(k : Lake.Name)
(f : β → m Unit)
:
m Unit
Equations
- t.forMatchingM k f = Lean.PrefixTree.forMatchingM t (Lean.toKey k) f
Instances For
@[inline]
def
Lean.NameTrie.forM
{m : Type → Type u_1}
{β : Type u_2}
[Monad m]
(t : Lean.NameTrie β)
(f : β → m Unit)
:
m Unit
Equations
- t.forM f = t.forMatchingM Lean.Name.anonymous f